High-speed Asynchronous Optical Camera Com-542 munication using LED and Rolling Shutter Camera, Proc. ICUFN, p.543, 2015. ,
, , 2015.
, Visible Light Communi-545
, Networking, and Sensing: A Survey, Potential and Challenges
, IEEE Communications Surveys & Tutorials, vol.17, issue.4, pp.2047-2077
RollingLight: Enabling Line-of-Sight Light-to-Camera Communica-550 tions, Proc. ACM MobiSys, vol.549, 2015. ,
CeilingCast: Energy Efficient and Location-552 bound Broadcast through LED-camera Communication, Proc. IEEE IN-553 FOCOM 2016, 2016. ,
Martian, p.555 ,
, Message Broadcast via LED Lights to Heterogeneous Smartphones
, IEEE Journal on Selected Areas in Communications, vol.35, issue.5, pp.557-1154, 2017.
, A Reliable, vol.559
, Asynchronous Protocol for VLC Communications Based on the Rolling 560
, Proc. IEEE GlobeCom, vol.562, 2015.
LiTell: Robust Indoor Localization using Unmod-563 ,
, ified Light Fixtures, Proc. ACM MobiCom, p.564, 2016.
Enabling High-Precision Visible Light Localization 566 in Todays Buildings, Proc. ACM MobiSys, p.567, 2017. ,
Human Sensing Us-569 ,
, ing Visible Light Communication, Proc. ACM MobiCom, p.570, 2015.
, , 2015.
Automating Visual Privacy Protection 572 ,
, Using a Smart LED, Proc. ACM MobiCom, p.573, 2017.
Markov Modulated Bernoulli Process, Mathematical Meth-575 ods of Operations Research, vol.45, pp.311-324, 0576. ,
Estimates of Error Rates for Codes on ,
, Bell System Technical Journal, vol.42, issue.5, pp.1977-1997, 1963.
Alexander Graham Bell and the Photophone: The Centen-580 nial of the Invention of Light-Wave Communications, 18801980, Optics 581 News, vol.6, issue.1, pp.8-16, 1980. ,
Advances in Optical Fiber Communications: An Historical Per-583 spective, IEEE Journal on Selected Areas in Communications, vol.1, issue.3, pp.356-372, 1983. ,
LiRa: A WLAN Architec-586 ture for Visible Light Communication with a Wi-Fi Uplink, Proc. IEEE 587 SECON 2017, 2017. ,
What is LiFi?, Journal of Light-589 wave Technology, vol.34, issue.6, pp.1533-1544, 2016. ,
Pushing the 591 ,
, Data Rate of Practical VLC via Combinatorial Light Emission, IEEE 592 Transaction on Mobile Computing, online, 2020.
,
An Open Source Research 603 Platform for Embedded Visible Light Networking, IEEE Wireless Com-604 munications, vol.22, pp.94-100, 2015. ,
VuLCAN: A Low-cost, Low-606 power Embedded Visible Light Communication And Networking Plat-607 form, Proc. ACM MSWiM, 0608. ,
Push the Limit of Light-to-Camera Communica-609 tion, IEEE Access, vol.8, pp.55969-55979, 2020. ,
Ubiquitous Sensor Network Simulation 611 and Emulation Environments: A Survey, Journal of Network and Com-612 puter Applications, vol.93, p.150181, 2017. ,
Development and Testing of an Indoor VLC 614 ,
, Proc. IEEE IWOW, p.615, 2015.
, , p.616
Extending ns3 to Simulate Visible 617 ,
, Light Communication at Network-level, Proc. IEEE ICT 2016, Thessa-618 loniki, 2016.
, , p.620
Implementing an IEEE802.15.7 Physical Layer Simulation 621 Model with OMNET++, Proc. DCAI, 2015. ,
The Design and Implemen-624 tation of IEEE 802.15.7 Module with ns-2 Simulator, Proc. IEEE I4CT 625, 2014. ,
Unleashing the Power 627 of LED-to-Camera Communications for IoT Devices, Proc. ACM VLCS ,